Methods and systems for registration of virtual space with real space in an augmented reality system

1. A method of using an augmented reality device in a surgical procedure that uses an optical navigation system that optically tracks a patient reference object to locate the patient reference object in a real-world space and determine its coordinates in a navigation coordinate system, wherein the augmented reality device has a display through which a wearer views the real-world space and on which the augmented reality device may render modeled objects, wherein the augmented reality device includes sensors for determining a position and orientation of the augmented reality device in the real-world space using an augmented reality coordinate system, the method comprising: rendering, on the display, a virtual model of the patient reference object; in response to receiving a first input to manipulate a location of the virtual model of the patient reference object in the augmented reality coordinate system, changing a position of the virtual model of the patient reference object in the augmented reality coordinate system; determining that the virtual model of the patient reference object is brought into alignment with the patient reference object in the real-world space from a viewpoint of the wearer of the augmented reality device as a result of the first input; in response to determining that the virtual model of the patient reference object is aligned with the patient reference object in the real-world space as a result of the first input, identifying a first transform from the navigation coordinate system to the augmented reality coordinate system, wherein identifying the first transform comprises: obtaining navigation coordinates data for a current location of the patient reference object in the navigation coordinate system; and determining a transform for translating said current location in the navigation coordinate system to coordinates for the corresponding and aligned virtual model of the patient reference object in the augmented reality coordinate system; subsequently transferring patient image data from the navigation coordinate system to the augmented reality coordinate system using the first transform; and displaying the patient image data on the display to augment a real-world view of a patient, wherein the determining step involves a user input to perform first alignment of the virtual model of the patient reference object to the patient reference object in the real-world space, and wherein the patient reference object is in a fixed location relative to the patient.

2. The method claimed in claim 1 , wherein the patient reference object comprises a solid body having at least four trackable fiducials attached thereto.

3. The method claimed in claim 2 , wherein the virtual model of the patient reference object includes virtual fiducials that correspond to the at least four trackable fiducials, and wherein the determination that the virtual model of the patient reference object is aligned comprises determining that each virtual fiducial is aligned with its corresponding trackable fiducial on the patient reference object.

4. The method claimed in claim 1 , wherein receiving input further comprises receiving input via an input device specifying a change in position or orientation for the virtual model of the patient reference object within the augmented reality coordinate system.

5. The method claimed in claim 4 , wherein the input comprises gesture-based input.

6. The method claimed in claim 1 , wherein determining that the virtual model of the patient reference object is aligned comprises determining that an error in alignment between a position of the virtual model of the patient reference object and a position of the patient reference object is less than a threshold amount.

7. The method claimed in claim 6 , wherein the error in alignment is based on a three-dimensional distance in the augmented reality coordinate system between at least one point on the virtual model of the patient reference object and a corresponding point on the patient reference object.

8. The method claimed in claim 7 , wherein said at least one point comprises a virtual fiducial.

9. The method claimed in claim 1 , wherein determining that the virtual model of the patient reference object is aligned comprises determining that the virtual model of the patient reference object is aligned with the patient reference object in the real-world space within a coarse error threshold, automatically adjusting a position of the virtual model to minimize an error in alignment, and determining that the virtual model of the patient reference object is aligned with the patient reference object in the real-world space within a fine error threshold that is smaller than the coarse error threshold.

10. The method claimed in claim 9 , wherein automatically adjusting comprises determining a location of the patient reference object in the augmented reality coordinate system and applying a translation or rotation to the virtual model of the patient reference object to minimize the error in alignment of the virtual model of the patient reference object with the location of the patient reference object in the augmented reality coordinate system.

11. The method claimed in claim 10 , wherein the augmented reality device further includes a camera, and wherein the determining a location of the patient reference object comprises capturing an image and detecting the location of the patient reference object using image recognition within the image.

12. The method claimed in claim 1 , further comprising outputting a prompt to change a location of the augmented reality device to view the patient reference object from another angle.

13. A surgical navigation system to track objects during a surgical procedure, the surgical navigation system comprising: an optical tracking system that optically tracks a patient reference object to locate the patient reference object in a real-world space and determine its coordinates in a navigation coordinate system; and an augmented reality device having a display through which a wearer views the real-world space and on which the augmented reality device may render modeled objects, and including sensors for determining a position and orientation of the augmented reality device in the real-world space using an augmented reality coordinate system, the augmented reality device to: render a virtual model of the patient reference objection on the display; receive a first input to manipulate a location of the virtual model of the patient reference object in the augmented reality coordinate system; and in response to receiving the first input, change a position of the virtual model of the patient reference object in the augmented reality coordinate system, wherein the augmented reality device is to determine that the virtual model of the patient reference object is brought into alignment with the patient reference object in the real-world space from a viewpoint of the wearer of the augmented reality device as a result of the first input; wherein the optical tracking system or the augmented reality device is to, in response to determining that the virtual model of the patient reference object is aligned with the patient reference object in the real-world space as a result of the first input, identify a first transform from the navigation coordinate system to the augmented reality coordinate system, wherein identifying the first transform comprises: obtaining navigation coordinates data for a current location of the patient reference object in the navigation coordinate system; and determining a transform for translating said current location in the navigation coordinate system to coordinates for the corresponding and aligned virtual model of the patient reference object in the augmented reality coordinate system; and wherein the optical tracking system or the augmented reality device is to subsequently transfer patient image data from the navigation coordinate system to the augmented reality coordinate system using the first transform, and wherein the augmented reality system is to display the patient image data on the display to augment a real-world view of a patient, wherein the determining step involves a user input to perform first alignment of the virtual model of the patient reference object to the patient reference object in the real-world space, and wherein the patient reference object is in a fixed location relative to the patient.

14. The surgical navigation system claimed in claim 13 , wherein the patient reference object comprises a solid body having at least four trackable fiducials attached thereto.

15. The surgical navigation system claimed in claim 14 , wherein the virtual model of the patient reference object includes virtual fiducials that correspond to the at least four trackable fiducials, and wherein the determination that the virtual model of the patient reference object is aligned comprises determining that each virtual fiducials is aligned with its corresponding trackable fiducial on the patient reference object.

16. The surgical navigation system claimed in claim 13 , wherein the augmented reality device further comprises an input device to receive input specifying a change in position or orientation for the virtual model of the patient reference object within the augmented reality coordinate system.

17. The surgical navigation system claimed in claim 13 , wherein the augmented reality device is to determine that the virtual model of the patient reference object is aligned by determining that an error in alignment between a position of the virtual model of the patient reference object and a position of the patient reference object is less than a threshold amount.

18. The surgical navigation system claimed in claim 17 , wherein the error in alignment is based on a three-dimensional distance in the augmented reality coordinate system between at least one point on the virtual model of the patient reference object and a corresponding point on the patient reference object.

19. The surgical navigation system claimed in claim 13 , wherein the augmented reality device is to determine that the virtual model of the patient reference object is aligned by determining that the virtual model of the patient reference object is aligned with the patient reference object in the real-world space within a coarse error threshold, automatically adjust a position of the virtual model of the patient reference object to minimize an error in alignment, and determine that the virtual model of the patient reference object is aligned with the patient reference object within a fine error threshold that is smaller than the coarse error threshold.

20. The surgical navigation system claimed in claim 19 , wherein the augmented reality device is to automatically adjust by determining a location of the patient reference object in the augmented reality coordinate system and applying a translation or rotation to the virtual model of the patient reference object to minimize the error in alignment of the virtual model of the patient reference object with the location of the patient reference object in the augmented reality coordinate system.

21. The surgical navigation system claimed in claim 20 , wherein the augmented reality device further includes a camera, and wherein the augmented reality device is to determine a location of the patient reference object by capturing an image and detecting the location of the patient reference object using image recognition within the image.